Fish Oil and Adaptations to Resistance Exercise in Older People
Overcoming the Blunted Response to Resistance Exercise With Fish Oil to Maximise Musculoskeletal Properties and Functional Abilities in Older People
1 other identifier
interventional
58
1 country
1
Brief Summary
Skeletal muscle is the largest organ in the human body and has many important roles in determining our physical abilities and overall wellbeing. One major function of skeletal muscle is to carry out many daily tasks, such as rising from a chair or getting on a bus, tasks often referred to as functional abilities. During healthy ageing muscle size is reduced by approximately 0.5-2% a year (known as sarcopenia), with concurrent reductions in functional abilities. This can result in a reduction in quality of life and loss of independence, both of which are clearly not desirable. The incidence of sarcopenia is around 20% between 50-70 years and around 50% in those over 80 years, with the absolute numbers and the average age of the population rising. One method through which muscle function can be enhanced and retard the progression of sarcopenia, across all age groups, is through exercise. The effectiveness of exercise will depend on a number of genetic and environmental factors, with nutritional intake being one of the most important and easily altered. Recent research has suggested that altering the type of fatty acids consumed may have a positive effect on muscle function. Little research is yet to be carried out in elderly humans. This is important as that findings from animal models are not definitively transferrable to humans. The main aim of the current proposal, therefore, is to investigate the effect the consumption of eicosapentaenoic acid (EPA) and docosahexaenoic acid (DHA), long chain polyunsaturated fatty acids found in oily fish, on the response to a resistance training programme in the elderly. A further aim is to determine the mechanisms which result in these adaptive responses. The project will be centred round a large 18 week resistance training/nutritional (EPA/DHA) intervention with both males and females over the age of 65 years. There are three main research questions and experiments stemming from this intervention. 1) Does the consumption of EPA and DHA result in a greater increase in strength, power and functional abilities in response to resistance training? To answer this question a series of measures of muscular performance and functional abilities will be assessed. 2) Does the consumption of EPA and DHA increase the size and quality of muscles, reduce the amount of fat found within the muscle and decrease inflammation? To address this question the participants will have MRI images of their muscles and blood samples taken before and after the intervention. This will allow the calculation of muscle mass/fat content and circulating levels of inflammatory markers. 3) Does the consumption of EPA and DHA enhance the activity of the molecules involved in controlling muscle mass after a single bout of resistance exercise? For this question muscle samples will be obtained before and after a single training session and measure changes in molecules previously identified as important in the changes in muscle mass in response to exercise. A fourth aim running throughout the proposal is 4) Do males and females respond differently to the combination of EPA/DHA and resistance exercise? Differences in protein metabolism have previously been noted between genders and yet the investigation of these differences is often overlooked. The investigators will investigate this by studying responses in groups of males and females. In summary, the aim of the proposed project is to test the hypothesis that the consumption of fatty acids found in oily fish will improve the response of an elderly population to a resistance training intervention. The major outcome of the proposal would be in establishing a beneficial effect of fish oil on muscular adaptation in the elderly, opening up a widely available therapeutic strategy for an improvement in the quality of life in the elderly population. Such strategies are of particular importance due to the increasing age of the UK population.
Trial Health
Trial Health Score
Automated assessment based on enrollment pace, timeline, and geographic reach
participants targeted
Target at P25-P50 for not_applicable
Started Sep 2012
Typical duration for not_applicable
1 active site
Health score is calculated from publicly available data and should be used for screening purposes only.
Trial Relationships
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Study Timeline
Key milestones and dates
Study Start
First participant enrolled
September 1, 2012
CompletedPrimary Completion
Last participant's last visit for primary outcome
September 1, 2015
CompletedStudy Completion
Last participant's last visit for all outcomes
September 1, 2015
CompletedFirst Submitted
Initial submission to the registry
July 18, 2016
CompletedFirst Posted
Study publicly available on registry
July 25, 2016
CompletedJuly 25, 2016
July 1, 2016
3 years
July 18, 2016
July 20, 2016
Conditions
Outcome Measures
Primary Outcomes (1)
Maximal Isometric Knee Extensor Torque
Change from baseline at 18 weeks
Secondary Outcomes (8)
Short Performance Physical Battery Test
Change from baseline at 18 weeks
Maximal Isokinetic Knee Extensor Torque (30,90 and 120 degrees/s)
Change from baseline at 18 weeks
Quadriceps Cross Sectional Area (MRI)
Change from baseline at 18 weeks
Circulating markers of inflammation (IL-6 and TNF-alpha)
Change from baseline at 18 weeks
Muscle protein synthesis
18 weeks
- +3 more secondary outcomes
Study Arms (2)
Safflower Oil plus Resistance Exercise Training
PLACEBO COMPARATOR3.0g of safflower oil taken daily alongside twice weekly resistance exercise training sessions for 18 weeks
Fish Oil plus Resistance Exercise Training
ACTIVE COMPARATOR3.0g of fish oil taken daily alongside twice weekly resistance exercise training sessions for 18 weeks
Interventions
Resistance exercise will involve 2 sessions per week for 18 weeks. Each session will involve participants carrying out the following exercises: calf press, leg press, leg extension and leg curl
Participants randomised to either 3g/day of fish oil or safflower oil for 18 weeks
Eligibility Criteria
You may qualify if:
- Over 65 years of age
- Not consuming oily fish regularly
- Not consuming nutritional supplements
- Not participating in resistance exercise training
You may not qualify if:
- History of myocardial infarction within previous 2 years
- Cardiac illness: moderate/ severe aortic stenosis, acute pericarditis, acute myocarditis, aneurysm, severe angina, clinically significant valvular disease, uncontrolled dysrhythmia, claudication within the previous 10 years
- Thrombophlebitis or pulmonary embolus within the previous 2 years
- History of cerebrovascular disease (CVA or TIA) within the previous 2 years
- Acute febrile illness within the previous 3 months
- Severe airflow obstruction
- Uncontrolled metabolic disease (e.g., thyroid disease or cancer)
- Significant emotional distress, psychotic illness or depression within the previous 2 years
- Lower limb fracture sustained within the previous 2 years; upper limb fracture within the previous 6 months; non arthroscopic lower limb joint surgery within the previous 2 years
- Any reason for loss of mobility for greater than 1 week in the previous 2 months or greater than 2 weeks in the previous 6 months
- Poorly controlled atrial fibrillation
- Poor (chronic) pain control
- Resting systolic pressure \>200 mmHg or resting diastolic pressure \>100 mmHg
- Moderate/ severe cognitive impairment (MMSE \<23)
- Impaired tissue viability (defined by a Waterlow risk assessment score \>15).
- +1 more criteria
Contact the study team to confirm eligibility.
Sponsors & Collaborators
Study Sites (1)
University of Aberdeen
Aberdeen, G12 8TA, United Kingdom
Related Publications (2)
Da Boit M, Tommasi S, Elliot D, Zinellu A, Sotgia S, Sibson R, Meakin JR, Aspden RM, Carru C, Mangoni AA, Gray SR. Sex Differences in the Associations between L-Arginine Pathway Metabolites, Skeletal Muscle Mass and Function, and their Responses to Resistance Exercise, in Old Age. J Nutr Health Aging. 2018;22(4):534-540. doi: 10.1007/s12603-017-0964-6.
PMID: 29582894DERIVEDDa Boit M, Sibson R, Sivasubramaniam S, Meakin JR, Greig CA, Aspden RM, Thies F, Jeromson S, Hamilton DL, Speakman JR, Hambly C, Mangoni AA, Preston T, Gray SR. Sex differences in the effect of fish-oil supplementation on the adaptive response to resistance exercise training in older people: a randomized controlled trial. Am J Clin Nutr. 2017 Jan;105(1):151-158. doi: 10.3945/ajcn.116.140780. Epub 2016 Nov 16.
PMID: 27852617DERIVED
MeSH Terms
Interventions
Intervention Hierarchy (Ancestors)
Study Design
- Study Type
- interventional
- Phase
- not applicable
- Allocation
- RANDOMIZED
- Masking
- QUADRUPLE
- Who Masked
- PARTICIPANT, CARE PROVIDER, INVESTIGATOR, OUTCOMES ASSESSOR
- Purpose
- TREATMENT
- Intervention Model
- PARALLEL
- Sponsor Type
- OTHER
- Responsible Party
- PRINCIPAL INVESTIGATOR
- PI Title
- Dr
Study Record Dates
First Submitted
July 18, 2016
First Posted
July 25, 2016
Study Start
September 1, 2012
Primary Completion
September 1, 2015
Study Completion
September 1, 2015
Last Updated
July 25, 2016
Record last verified: 2016-07